Hi cafe,
I have been struggling with this issue for the past days. I have
investigated at the Haskell, C and even at assembly level...
Perhaps I'm missing something big ??
I hope someone familiar with FFI could help me on this Segfault.
My env is: Linux Debian 3.0.0-1, SMP, GHC 7.0.4, x86_64, eglibc 2.13-10
(This issues occurs as well on others people with /= env, but only with
x86_64 arch)
The bug is in the hsmagick library (FFI bindings to
GraphicsMagick), for which I am the maintainer.
--
So here is a reproducer (Works fine in 32 bit, segfault in 64).
You should have hsmagick + GraphicsMagick dev libs installed.
import Graphics.Transform.Magick.Images
main = do
initializeMagick
c <- readImage "image.jpg"
putStrLn "End"
--
Executing this program, compiled with standard options, a Segfault
occurs at runtime.
If I compile this small program with -threaded option an assertion error
is thrown at runtime:
main: malloc.c:3096: sYSMALLOc: Assertion `(old_top == (((mbinptr)
(((char *) &((av)->bins[((1) - 1) * 2])) - __builtin_offsetof (struct
malloc_chunk, fd)))) && old_size == 0) || ((unsigned long) (old_size)
>= (unsigned long)((((__builtin_offsetof (struct malloc_chunk,
>fd_nextsize))+((2 * (sizeof(size_t))) - 1)) & ~((2 * (sizeof(size_t)))
>- 1))) && ((old_top)->size & 0x1) && ((unsigned long)old_end &
>pagemask) == 0)' failed.
This assertion error is cryptic for me... but it maybe could help
someone here.
However, having a C experience, investigating a Segfault is in
my habits, so let's install debugs symbols on everything and dig with
gdb.
Here is the backtrace:
Program received signal SIGSEGV, Segmentation fault.
0x00007ffff510292c in malloc_consolidate (av=0x7ffff540fe60) at
malloc.c:5161 (this is inside the eglibc source)
5161 unlink(p, bck, fwd);
(gdb) bt
#0 0x00007ffff510292c in malloc_consolidate (av=0x7ffff540fe60) at
malloc.c:5161
#1 0x00007ffff5104d64 in _int_malloc (av=0x7ffff540fe60,bytes=8520)
at malloc.c:4373
#2 0x00007ffff5107420 in __libc_malloc (bytes=8520) at malloc.c:3660
#3 0x00007ffff67bf311 in CloneImageInfo (image_info=0x0) at
magick/image.c:1012
#4 0x0000000000439dfa in
hsmagickzm0zi5_GraphicsziTransformziMagickziFFIHelpers_mkNewImageInfo1_info
()
Yay, the Segfault is deep in the libc after a regular malloc (8520bytes)
(I dug into the GraphicsMagick source starting from magick/image.c:1012)
And this libc call is called by a call to CloneImageInfo(NULL) from
Haskell, which is correct as it is graphicsMagick way to
allocate an empty ImageInfo data structure.
(http://www.graphicsmagick.org/api/image.html#cloneimageinfo)
I tried in a C program to execute (after initializing ImageMagick)
image_info=CloneImageInfo((ImageInfo *) NULL);
And of course .... no Segfault...
Let's look at the FFI call...
This FFI call is the done by the mkNewImageInfo as shown in the trace.
The Haskell FFI layer here has done the right job, calling
the C function with the right args (NULL)
Here is all the code related to mkNewImageInfo (the last Haskell part we
see in the backtrace)
---
mkNewImageInfo :: IO (ForeignPtr HImageInfo)
mkNewImageInfo = mkFinalizedImageInfo =<< mkNewImageInfo_
mkFinalizedImageInfo :: Ptr HImageInfo -> IO (ForeignPtr HImageInfo)
mkFinalizedImageInfo = newForeignPtr imageInfoFinalizer
mkNewImageInfo_ :: IO (Ptr HImageInfo)
mkNewImageInfo_ = clone_image_info nullPtr -- CALL before the Segfault
destroyImageInfo :: Ptr HImageInfo -> IO ()
destroyImageInfo = destroy_image_info
foreign import ccall "static magick/api.h &DestroyImageInfo"
imageInfoFinalizer :: FunPtr (Ptr HImageInfo -> IO ())
foreign import ccall "static magick/api.h CloneImageInfo"
clone_image_info :: Ptr HImageInfo -> IO (Ptr HImageInfo)
--
To me, this code is right (and works perfectly in 32 bit).
Furthermore, as the call is made with a nullPtr arg, no data structure
is used ...
I tried this code without using ForeignPtr Finalizers (hsmagick <= 0.4)
and the Segfault occurs as well ...
I even had a look at the generated assembly, which also looks right...
It seems there is a real segmentation error, or an illegal access to a
memory page... But I could not find the root cause of this error.
And an additionnal piece to the puzzle, when running the program inside
valgrind, there is no Segfault and the program works as expected.
So if anyone have an idea on how only on 64bits arch an Haskell FFI
call could led to a Segfault in the libc malloc, it would make my day,
perhaps my week :)
Thanks !
Vincent Gerard